ES2281761T3 - METHOD AND APPLIANCE FOR USING HISTORICAL INFORMATION ON THE NETWORK TO MITIGATE EXCESSIVE NETWORK UPDATES WHEN A COMMUNICATION CHANNEL IS SELECTED. - Google Patents

Abstract

A method for selecting a communications channel for communications with a base transmitter station in service or with an adjacent base transmitter station, in which a communications device (10) receives network identification information, which comprises information identifying areas of the network, a signal that has a signal level of the adjacent base transmitter station, and a reference signal that has a reference signal level of the base transmitter station in service, the method for selecting the communication channel being characterized by the steps of: storing the network identification information if the selection of the channel between the two areas results in an update of the network area; set a value if the network area update has not previously occurred; increase the value if the update of the network area previously occurred between the same two areas (14); compare the signal level with the reference signal level plus a marginal value if the increased value is greater than or equal to the predetermined value; and select a communications channel with the adjacent base transmitter station if the signal level matches or exceeds the level of the reference signal plus a marginal value (18).

Description

Method and apparatus for using information network history to mitigate network updates excessive when a communications channel is selected.

Countryside

The present invention is generally about field of radio resource control mechanisms (RRC) in wireless communication networks and, in particular, of a method and apparatus for selecting a communications channel.

Background

In wireless communications networks, by example, in the Universal Mobile Telecommunications System (UMTS), communication channels can be created between: a mobile communications device to provide access to network services on radio communication channels; A network of Radio Access (RAN) comprising at least one transmitting station radio base to broadcast and receive information through the communication channels and at least one radio network controller to control which communication channel and through which station base radio transmitter communicates a communication device mobile and to drive communications traffic; a base network that comprises network nodes to provide control functions of network, such as billing and identification, and to direct communications traffic from and to the appropriate RAN as well as to and from other networks; and other networks, such as both a  Public Switched Telephone Network (PSTN) or a Data Network Packaged (PDN), to direct communications traffic from and even the base network. A mobile communications device can transit between base transmitting stations supported by the same radio network controller according to the intensity value of signal received from each base radio transmitter station. The Transition between base radio transmitting stations supported by the same radio network controller and also supported by the same base network requires only an update of the radio interface, and an update of the interface between the RNC and The base transmitter station. However, the transition between Radio network controllers supported by different base networks requires an update of the radio interface, an update of the interface between the RNC and the base transmitting station, a interface update between the RNC and the base network; and one transition between base networks requires additional updating of the interface between the base network and either the PSTN or the PDN.

When a mobile communications device transit between RNC, the update is known as update of the routing area (RAU). When a device mobile communications transit between base networks, the update is known as location area update (LAU). The RAU and the LAU require a much larger signal volume over the link radius that the internase update required when the mobile communications device transits between stations base transmitters supported by the same radio network controller. Therefore, considering limited resources and nature radio link sensitive, interface updates required when traveling between RNC and base networks must be well controlled so as to prevent energy consumption unnecessary and the transmission of signals over the radio interface. Because this happens when the communications device mobile transits between base transmitting stations supported by different RAN or base networks, there is a possibility that the mobile communications device position and conditions radio link may cause frequent updates and unnecessary. This uncontrolled frequency can cause excessive power consumption of the mobile communications device and an excess of traffic over the radio interface.

In order to mitigate the LAU and excessive RAU the 3GPP05.08 standard specification requires that a signal level of a base transmitter station in service compared to a level of signal from an adjacent base transmitter station must be adjusted by a predetermined margin value in the case of a LAU or RAU. The adjustment of the reference signal can in certain circumstances prevent updates from occurring unnecessary, and therefore help reduce the consumption of energy and improve the efficiency of the radio link. For example, Adjusting the reference signal will help prevent a mobile communications device located within an area in the network between two network cells served by two stations different base radio transmitters switch unnecessarily between the two cells under certain characteristics of propagation. However, due to the sensitivity of the channels radio and therefore to the unpredictable nature of the channels radio, the same situation at a different time may be under different propagation characteristics, or other defined position Due to different propagation characteristics, it may not respond also at the same setting value. The document US-A-5822 696 describes a method to assign to a mobile network a set limit in the number of updates or evaluations that a mobile station can perform in a pre-established period of time in which said station mobile will be assigned to a channel both in a microcell and in a macrocell, depending on the number of evaluations that have It happened until that moment. The document US-A-2002/02977 describes a method and an apparatus for altering the setpoint at the signal level of update in a mobile communications system based on a setpoint of the preset signal quality.

Therefore, there is a need for provide an improved method and adjust the signal level of  reference to mitigate network updates excessive

Summary

The invention is established in the claims. To overcome the limitations identified in the background, a method and an apparatus for selecting a communications channel

In one embodiment, a mechanism of channel selection that uses the selection history of channels to select a communications channel between a base transmitter station in service and a transmitter station adjacent base. The channel selection mechanism, when it receives a signal from an adjacent base transmitter station that has a signal level that equals or exceeds a signal level of reference from the base transmitter station in service, determines if the channel selection would result in an area update location or in an update of the area of routing If an update occurs, the mechanism of channel selection determines if a previously occurred updating the same routing area or the same area of location. If an update did not occur previously with the same routing area or the same location area, it set an incremental value and store information identification of the routing area or location area. If a routing area update previously occurred or an update of the location area, the incremental value associated with the routing or location area information It increases. The channel selection mechanism compares the value incremented with a default value and either select a first marginal value if the increased value does not reach or exceed the default value, or select a second marginal value if the increased value equals or exceeds a predetermined value. He Channel selection mechanism then determines whether the signal level of the adjacent base transmitter station equals or exceeds the signal level of the base transmitter station in service plus the marginal value selected.

Brief description of the drawings

Figure 1 illustrates the steps of the procedure that characterize a method to mitigate excess updates  network used as part of a channel selection mechanism of a mobile communications device.

Figure 2 illustrates the relevant architecture UMTS of a mobile communications device that uses the channel selection mechanism; Y

Figure 3 illustrates a communications network wireless, for example a UMTS communications network, which supports communications services for a device communications used by the channel selection mechanism.

Detailed description

Although below is presented in detail the use and implementation of particular embodiments of the present invention, it should be understood that the present invention provides many inventive concepts, which can be realized in a wide variety of contexts. Specific realizations discussed here are merely illustrative of specific forms of make and use the invention, and do not constitute a limit to scope of the invention.

A channel selection mechanism is presented of a communications device that uses the history of channel selections in order to mitigate the excess of network updates. The communications device receives information on the communication channels that includes network identification information and a signal that has a signal strength from base transmitting stations adjacent and compare the intensities of the received signals with the signal strength of the base transmitter station in service. The channel selection mechanism is able to deduce if require or not to perform a routing area update (RAU) or a location area update (LAU) from Information and signal strength. If required any of these updates, the network information associated with one or both, depending on the update required, the RAU or LAU is stored and either a value is set incremental or increased, depending on whether an update is produced earlier. Depending on the magnitude of value incremental, the channel selection mechanism compares the signal strength with the signal strength of the station base transmitter in service plus a first marginal value or a second marginal value in order to determine the selection of the channel.

Referring to Figure 1, the procedural steps that characterize a method to mitigate the excess network updates, used as part of a channel selection mechanism of a device mobile communications, and is denoted as a whole as 10. In the block 12, the signal selection mechanism receives information which includes identification of the network that characterizes the areas of location and routing, and signals that have signal levels indicating the signal strength from a transmitting station base adjacent to the base station in service that provides communication services to the device mobile communications The channel selection mechanism determines if the signal level received from the base transmitter station adjacent equals or exceeds the signal level, referred to here as reference signal level of the base transmitting station in service. If the signal level does not match or exceed the signal level For reference, the channel selection process is terminated. If he signal level matches or exceeds the signal level of the station base transmitter in service, the channel selection mechanism determines from the network information if the selection of the adjacent base station channel will produce a location area update (LAU) or an update of the routing area (RAU). If the channel selection did not produce a LAU or RAU, the channel selection is made. In block 14, if the channel selection produces a LAU or RAU, the mechanism of Channel selection determines whether the selection between them Two areas occurred previously. If the selection between these same two areas did not occur previously, the mechanism of Channel selection stores the identification information of the network and set an incremental value. If the selection between these same two areas occurred earlier, the value is increased. In block 16, the channel selection mechanism selects a first marginal value determined if the incremental value does not match or exceed a predetermined limit, or select a second default marginal value, being the second marginal value greater than the first marginal value, if the incremental value equals or exceeds a predetermined limit. In block 18, the mechanism of Channel selection compares the received signal with the signal of reference plus the selected marginal value. If the signal received does not match or exceed the reference signal plus the marginal value selected, the channel selection does not occur. Yes the signal received equals or exceeds the reference signal plus the value selected marginal, the channel selection is made. He Channel selection mechanism can erase information from identification and incremental values associated gradually, or completely if the update with a stored area has not been produced during a certain period of time.

Referring to Figure 2, the relevant architecture GPRS, EDGE, or UMTS of a device mobile communications using the channel selection mechanism denoted as a whole as 30. The relevant architecture 30 comprises a radio channel 32 to connect through a link radio with a base transmitter station, a layer mechanism physics 34 to generate radio channel 32, a layer mechanism of link 36 comprising a Medium Access Control mechanism (MAC) 38, a Radio Link Control mechanism 40 for multiplex and demultiplex the control and user data that they come and go to the control and data channels of user, 42a and 42b, and from and to transport channels 44, and a Radio Resource Control mechanism 46 to process the control data 42a, 48 and provide control information about  50 control channels. A description is not provided and additional architecture because there are many variants different in mobile communications devices, and to that the basic architecture of them will be known to someone versed in the technique. However, the communications device mobile can understand, depending on the supported service, Additional software components, such as IP, TCP, UPD, and RTP and application layer software, such as mail electronic, Internet search mechanisms, programs Calendar and appointments, plus several firmware components.

The RRC mechanism 46 comprises a mechanism of data process to store and process data in accordance with processes identified within the descriptions associated with the Figure 1. The data processing mechanism comprises a processor 52, a memory 54, and a Digital Signal Processor (DSP) 56, for receive information from the channel, store and process the information channel selection, and execute the processes and provide the control information needed to select the channel. In the embodiment of the invention, the RRC 46 mechanism receives the levels signal of the base and service transmitting stations, network identification information, and in accordance with this information compares the signal levels of the stations adjacent base transmitters with: the reference signal in the case that RAU or LAU is not required; with the reference signal plus a first marginal value in the event that a RAU or LAU is required and the same RAU or LAU has not previously occurred a number default times; or with the reference signal plus a second  marginal value, where the second marginal value is greater than the first marginal value in a predetermined amount, in the case in that the same RAU or LAU has previously occurred a number Default times. Although Figure 2 illustrates a mechanism of data process included in the RRC mechanism, someone versed in the technique must understand that the data processing mechanism can be a shared resource to be shared with other components within the architecture

Referring now to Figure 3, a network of example wireless communications, for example a network of GSM, GPRS or UTMS communications adhered to the specifications appropriate standardized, support service illustrated communications for a mobile communications device that uses the channel selection mechanism and that is denoted in its set as 60. The wireless communication network 60 comprises a main network 62 coupled to a Radio Access Network (RAN) 64, 66 and 68 networks, such as the Switched Telephone Network Public (PSTN) or the Packaged Data Network (PDN). The network of wireless communications also comprises a main network 70 coupled to a RAN 72, 74 and other networks 76, such as a PSTM or a PDN, and a mobile communications device 78. The RAN 64, 66, 72 and 74 comprises multiple base transmitting stations which provide a radio interface with the device mobile communications 78 and a radio network controller for allocate radio resources and direct communications about base transmitting stations. In this illustration, RAN 64 It comprises a network controller that supports two groups of stations base transmitters identified by RA1 and RA2 and also supported by a main network 62 identified by LA1. RAN 66 comprises a network controller that supports a group of stations base transmitters identified as RA3 and also supported by the main networks 62, 70 and identified by LA2. RAN 72 It comprises a network controller that supports a group of stations base transmitters identified by RA4 and also supported by a main network 70 identified as LA3. The RAN 74 comprises a network controller that supports a group of transmitting stations base identified as RA5, RA6 and also supported by the network main 70 also identified as LA3.

Communications traffic is directed to and from the mobile communications device 78, and to and from the RAN 64, and to and from the main network 62, and another network 68 according to the RA and LA. As an example in this particular illustration the Mobile communications device 79 can be assigned to LA1, RAU1. Although not illustrated, in practice cell coverages between RAN they will overlap each other. When the device Mobile communications 78 receives signal levels indicating that a transition must occur between base transmitting stations, the channel selection mechanism as described in reference to Figures 1 and 2 determine if the channel selection will result in a RAU or LAU. If an update occurs, for example if the Channel selection results in a mobile station that has LA1, RA1, the reference signal level of a transmitting station base in service plus a marginal value is used to compare with the signal level of an adjacent base transmitter station if a update between RA1 and RA2 previously occurred a number Default times. Therefore, the selection history of channels can be used to mitigate a network update excessive thanks to the combination of the characteristics of position and spread.

Although the use and implementation of particular embodiments of the present invention have been presented in detail above, it should be understood that the Present invention provides many inventive concepts, which They can be performed in a wide variety of contexts. The specific embodiments discussed here are mere illustrations of specific ways of carrying out and using the invention and are not limiting within the object of the invention.

Claims (7)

1. A method of selecting a communications channel for communications with a base transmitter station in service or with an adjacent base transmitter station, in which a communications device (10) receives identification information from the network, comprising information that identifies areas of the network, a signal that has a signal level of the adjacent base transmitter station, and a reference signal that has a reference signal level of the base transmitter station in service, the method for selecting the channel being characterized of communications by the steps of: store the identification information of the network if the channel selection between the two areas results in a network area update; set a value if the area update of the network has not previously occurred; increase the value if the update of the network area previously occurred between the same two areas (14); compare the signal level with the signal level reference plus a marginal value if the increased value is greater than or equal to the default value; Y select a communications channel with the adjacent base transmitter station if the signal level equals or exceeds the level of the reference signal plus a marginal value (18). 2. The method to select a channel of communications as described in claim 1 comprising  In addition the steps of: compare the signal level with the level of the reference signal if when selecting a communications channel no will result in an update of the location area or in a routing area update; determine if the signal level equals or exceeds the reference signal level plus a marginal value; Y select a communications channel with the adjacent base transmitter station if the signal level of the adjacent base transmitter station equals or exceeds the level of reference signal plus a marginal value. 3. The method to select a channel from communications as described in claim 1 or 2 further comprising comparing the signal level with a level reference signal plus another marginal value if the value Increased is not equal or is not greater than the default value, in which the other marginal value is less than the value marginal. 4. A channel selection mechanism (30) for selecting a communications channel for communications with a base transmitter station in service or with an adjacent base transmitter station, in which the channel selection mechanism (30) includes a processor (52) and in which the channel selection mechanism is arranged to receive information from the network, which comprises information to identify areas of the network, a signal having a signal level of the adjacent base transmitter station, and a signal of reference that has a reference signal level of the base transmitter station in service, the channel selection mechanism (30) being characterized because: the processor (52) comprises arranged means to store network identification information if the Channel selection between two areas results in an update of the network area, set a value if the network update has not previously occurred, increase the value if the update of the network area previously occurred between the same two areas (14), compare the signal level with the signal level of reference plus a marginal value if the increased value is greater than or equal to a predetermined value, and select a channel of communications with the adjacent base transmitter station if the signal level equals or exceeds the reference signal level plus the marginal value (18). 5. The channel selection mechanism (30) of claim 4 wherein the processor (52) comprises means ready to compare the signal level of the station adjacent base transmitter with a signal level of the station base transmitter if selecting a communications channel does not will result in an update of the location area or a Routing area update, determine if the level of signal from the adjacent base transmitter station equals or exceeds the signal level of the base transmitter station in service plus a marginal value, and select a communications channel if the level signal from the adjacent base transmitter station equals or exceeds the signal level of the base transmitter station in service plus the marginal value. 6. The channel selection mechanism (30) of claims 4 or 5 wherein the processor (52) comprises also means arranged to compare the signal level with a reference signal level plus another marginal value if the value Increased is not equal to or greater than the default value, where the other marginal value is less than the marginal value. 7. A mobile communications device (10) comprising a channel selection mechanism (30) such as the claimed in claims 4, 5 or 6.